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qt-creator/src/plugins/clangtools/clangtoolruncontrol.cpp
Jarek Kobus c098b261dc TaskTree: Refactor Group internal data 
Introduce the GroupData structure. In this way it's easily
possible to add extra properties of already used types, e.g. int.

It's also possible to easily create elements with multiple
properties.

Simplify internal TaskItem::Type enum.

Get rid of special ParallelLimit and Workflow elements.
Provide global parallelLimit() and workflowPolicy() functions.

Make global items (e.g. parallel, stopOnDone, etc...) const.

Change-Id: Ic5628255b542fd6c5a5565b055ff11804c8d7b68
Reviewed-by: Qt CI Bot <qt_ci_bot@qt-project.org>
Reviewed-by: <github-actions-qt-creator@cristianadam.eu>
Reviewed-by: hjk <hjk@qt.io>
2023-05-19 15:30:15 +00:00

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// Copyright (C) 2016 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0
#include "clangtoolruncontrol.h"
#include "clangtool.h"
#include "clangtoolrunner.h"
#include "clangtoolstr.h"
#include "executableinfo.h"
#include <coreplugin/progressmanager/taskprogress.h>
#include <cppeditor/cppmodelmanager.h>
#include <projectexplorer/buildconfiguration.h>
#include <projectexplorer/buildmanager.h>
#include <projectexplorer/kitinformation.h>
#include <projectexplorer/project.h>
#include <projectexplorer/projectexplorer.h>
#include <projectexplorer/target.h>
#include <projectexplorer/toolchain.h>
#include <utils/algorithm.h>
#include <utils/process.h>
#include <utils/stringutils.h>
#include <QLoggingCategory>
using namespace CppEditor;
using namespace ProjectExplorer;
using namespace Tasking;
using namespace Utils;
static Q_LOGGING_CATEGORY(LOG, "qtc.clangtools.runcontrol", QtWarningMsg)
namespace ClangTools {
namespace Internal {
class ProjectBuilder : public RunWorker
{
public:
ProjectBuilder(RunControl *runControl)
: RunWorker(runControl)
{
setId("ProjectBuilder");
}
bool success() const { return m_success; }
private:
void start() final
{
Target *target = runControl()->target();
QTC_ASSERT(target, reportFailure(); return);
connect(BuildManager::instance(), &BuildManager::buildQueueFinished,
this, &ProjectBuilder::onBuildFinished, Qt::QueuedConnection);
if (!BuildManager::isBuilding(target))
BuildManager::buildProjectWithDependencies(target->project());
}
void onBuildFinished(bool success)
{
disconnect(BuildManager::instance(), &BuildManager::buildQueueFinished,
this, &ProjectBuilder::onBuildFinished);
m_success = success;
reportDone();
}
private:
bool m_success = false;
};
static QDebug operator<<(QDebug debug, const Utils::Environment &environment)
{
for (const QString &entry : environment.toStringList())
debug << "\n " << entry;
return debug;
}
static QDebug operator<<(QDebug debug, const AnalyzeUnits &analyzeUnits)
{
for (const AnalyzeUnit &unit : analyzeUnits)
debug << "\n " << unit.file;
return debug;
}
ClangToolRunWorker::ClangToolRunWorker(ClangTool *tool, RunControl *runControl,
const RunSettings &runSettings,
const CppEditor::ClangDiagnosticConfig &diagnosticConfig,
const FileInfos &fileInfos,
bool buildBeforeAnalysis)
: RunWorker(runControl)
, m_tool(tool)
, m_runSettings(runSettings)
, m_diagnosticConfig(diagnosticConfig)
, m_fileInfos(fileInfos)
, m_temporaryDir("clangtools-XXXXXX")
{
m_temporaryDir.setAutoRemove(qtcEnvironmentVariable("QTC_CLANG_DONT_DELETE_OUTPUT_FILES")
!= "1");
setId("ClangTidyClazyRunner");
setSupportsReRunning(false);
if (buildBeforeAnalysis) {
m_projectBuilder = new ProjectBuilder(runControl);
addStartDependency(m_projectBuilder);
}
Target *target = runControl->target();
m_projectInfoBeforeBuild = CppEditor::CppModelManager::instance()->projectInfo(target->project());
BuildConfiguration *buildConfiguration = target->activeBuildConfiguration();
QTC_ASSERT(buildConfiguration, return);
m_environment = buildConfiguration->environment();
ToolChain *toolChain = ToolChainKitAspect::cxxToolChain(target->kit());
QTC_ASSERT(toolChain, return);
m_targetTriple = toolChain->originalTargetTriple();
m_toolChainType = toolChain->typeId();
}
ClangToolRunWorker::~ClangToolRunWorker() = default;
void ClangToolRunWorker::start()
{
ProjectExplorerPlugin::saveModifiedFiles();
if (m_projectBuilder && !m_projectBuilder->success()) {
emit buildFailed();
reportFailure(Tr::tr("Failed to build the project."));
return;
}
const QString &toolName = m_tool->name();
Project *project = runControl()->project();
m_projectInfo = CppEditor::CppModelManager::instance()->projectInfo(project);
if (!m_projectInfo) {
reportFailure(Tr::tr("No code model data available for project."));
return;
}
m_projectFiles = Utils::toSet(project->files(Project::AllFiles));
// Project changed in the mean time?
if (m_projectInfo->configurationOrFilesChanged(*m_projectInfoBeforeBuild)) {
// If it's more than a release/debug build configuration change, e.g.
// a version control checkout, files might be not valid C++ anymore
// or even gone, so better stop here.
reportFailure(Tr::tr("The project configuration changed since the start of "
"the %1. Please re-run with current configuration.")
.arg(toolName));
emit startFailed();
return;
}
// Create log dir
if (!m_temporaryDir.isValid()) {
reportFailure(
Tr::tr("Failed to create temporary directory: %1.").arg(m_temporaryDir.errorString()));
emit startFailed();
return;
}
const Utils::FilePath projectFile = m_projectInfo->projectFilePath();
appendMessage(Tr::tr("Running %1 on %2 with configuration \"%3\".")
.arg(toolName, projectFile.toUserOutput(), m_diagnosticConfig.displayName()),
Utils::NormalMessageFormat);
const ClangToolType tool = m_tool == ClangTidyTool::instance() ? ClangToolType::Tidy
: ClangToolType::Clazy;
const FilePath executable = toolExecutable(tool);
const auto [includeDir, clangVersion] = getClangIncludeDirAndVersion(executable);
// Collect files
AnalyzeUnits unitsToProcess;
for (const FileInfo &fileInfo : m_fileInfos)
unitsToProcess.append({fileInfo, includeDir, clangVersion});
qCDebug(LOG) << Q_FUNC_INFO << executable << includeDir << clangVersion;
qCDebug(LOG) << "Files to process:" << unitsToProcess;
qCDebug(LOG) << "Environment:" << m_environment;
m_filesAnalyzed.clear();
m_filesNotAnalyzed.clear();
QList<TaskItem> tasks{parallelLimit(qMax(1, m_runSettings.parallelJobs()))};
for (const AnalyzeUnit &unit : std::as_const(unitsToProcess)) {
if (!m_diagnosticConfig.isEnabled(tool)
&& !m_runSettings.hasConfigFileForSourceFile(unit.file)) {
continue;
}
const AnalyzeInputData input{tool, m_runSettings, m_diagnosticConfig, m_temporaryDir.path(),
m_environment, unit};
const auto setupHandler = [this, unit, tool] {
const QString filePath = unit.file.toUserOutput();
appendMessage(Tr::tr("Analyzing \"%1\" [%2].").arg(filePath, clangToolName(tool)),
Utils::StdOutFormat);
return true;
};
const auto outputHandler = [this](const AnalyzeOutputData &output) { onDone(output); };
tasks.append(clangToolTask(input, setupHandler, outputHandler));
}
m_taskTree.reset(new TaskTree(tasks));
connect(m_taskTree.get(), &TaskTree::done, this, &ClangToolRunWorker::finalize);
connect(m_taskTree.get(), &TaskTree::errorOccurred, this, &ClangToolRunWorker::finalize);
auto progress = new Core::TaskProgress(m_taskTree.get());
progress->setDisplayName(Tr::tr("Analyzing"));
reportStarted();
m_elapsed.start();
m_taskTree->start();
}
void ClangToolRunWorker::stop()
{
m_taskTree.reset();
m_projectFiles.clear();
reportStopped();
// Print elapsed time since start
const QString elapsedTime = Utils::formatElapsedTime(m_elapsed.elapsed());
appendMessage(elapsedTime, NormalMessageFormat);
}
void ClangToolRunWorker::onDone(const AnalyzeOutputData &output)
{
emit runnerFinished();
if (!output.success) {
qCDebug(LOG).noquote() << "onRunnerFinishedWithFailure:" << output.errorMessage << '\n'
<< output.errorDetails;
m_filesAnalyzed.remove(output.fileToAnalyze);
m_filesNotAnalyzed.insert(output.fileToAnalyze);
const QString message = Tr::tr("Failed to analyze \"%1\": %2")
.arg(output.fileToAnalyze.toUserOutput(), output.errorMessage);
appendMessage(message, Utils::StdErrFormat);
appendMessage(output.errorDetails, Utils::StdErrFormat);
return;
}
qCDebug(LOG) << "onRunnerFinishedWithSuccess:" << output.outputFilePath;
QString errorMessage;
const Diagnostics diagnostics = m_tool->read(output.outputFilePath, m_projectFiles,
&errorMessage);
if (!errorMessage.isEmpty()) {
m_filesAnalyzed.remove(output.fileToAnalyze);
m_filesNotAnalyzed.insert(output.fileToAnalyze);
qCDebug(LOG) << "onRunnerFinishedWithSuccess: Error reading log file:" << errorMessage;
appendMessage(Tr::tr("Failed to analyze \"%1\": %2")
.arg(output.fileToAnalyze.toUserOutput(), errorMessage),
Utils::StdErrFormat);
} else {
if (!m_filesNotAnalyzed.contains(output.fileToAnalyze))
m_filesAnalyzed.insert(output.fileToAnalyze);
if (!diagnostics.isEmpty()) {
// do not generate marks when we always analyze open files since marks from that
// analysis should be more up to date
const bool generateMarks = !m_runSettings.analyzeOpenFiles();
m_tool->onNewDiagnosticsAvailable(diagnostics, generateMarks);
}
}
}
void ClangToolRunWorker::finalize()
{
if (m_taskTree)
m_taskTree.release()->deleteLater();
const QString toolName = m_tool->name();
if (m_filesNotAnalyzed.size() != 0) {
appendMessage(Tr::tr("Error: Failed to analyze %n files.", nullptr, m_filesNotAnalyzed.size()),
ErrorMessageFormat);
Target *target = runControl()->target();
if (target && target->activeBuildConfiguration() && !target->activeBuildConfiguration()->buildDirectory().exists()
&& !m_runSettings.buildBeforeAnalysis()) {
appendMessage(
Tr::tr("Note: You might need to build the project to generate or update source "
"files. To build automatically, enable \"Build the project before analysis\"."),
NormalMessageFormat);
}
}
appendMessage(Tr::tr("%1 finished: "
"Processed %2 files successfully, %3 failed.")
.arg(toolName)
.arg(m_filesAnalyzed.size())
.arg(m_filesNotAnalyzed.size()),
Utils::NormalMessageFormat);
runControl()->initiateStop();
}
} // namespace Internal
} // namespace ClangTools
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